posted on 2019-05-07, 00:00authored byMerlijn
A. J. Mertens, Alexander Aerts, Ivan Infante, Jörg Neuhausen, Stefaan Cottenier
Fission
and fusion reactors can only play a role in the future
energy landscape if they are inherently safe by design. For some reactor
concepts, a major remaining issue is the undesired production of radiotoxic 210Po. To filter out the volatile Po species, information on
their molecular composition is needed. An experimental characterization
is very challenging due to the large required amount of radioactive
Po. An alternative quantum chemistry approach was taken to predict
the temperature-dependent stability of relevant diatomic Po-containing
molecules. Experimental data on lighter analogue molecules was used
to establish a well-founded methodology. The relative occurrence of
the Po species was estimated in the cover gas of (i) the lead–bismuth
eutectic coolant in the accelerator-driven MYRRHA fission reactor
and (ii) the Pb–Li eutectic tritium breeder in the DEMO fusion
reactor. In both systems, Po is found to occur mainly as PbPo molecules
and atomic Po.